Appearance of Three Chloroplast Isoenzymes in Dark-grown Pea Plants and Pea Seeds

Activity peaks characteristic of the chloroplastic Calvin cycle enzymes triose-phosphate isomerase, ribose 5-phosphate isomerase, and fructose 1,6-diphosphate aldolase are found in isoelectric focusing patterns of dark-grown pea (Pisum sativum) seedlings and seeds. Apparently, in this higher plant these three chloroplastic isoenzymes can be formed in the absence of light and of chloroplast formation.     

Formation of dissociated enzyme subunits by chemical treatment during renaturation

When iodoacetate is added to denatured muscle aldolase undergoing renaturation, a major portion of the activity in the resulting enzyme remains in the monomeric form (of about 37,000 M_r). In the absence of iodoacetate, the renatured enzyme exists entirely as the tetramer. Iodoacetate treatment of native aldolase tetramer (M_r = 160,000) does not lead to dissociation. The stabilization of the monomer by iodoacetate treatment is presumably due to modification of a group at the intersubunit region. Active monomers of aldolase could be distinguished from native or renatured aldolase tetramer by gel-filtration and by the sensitivity of the monomer to inactivation in 2.3 m-urea.     

Purification and Characterization of a Feruloylesterase from Aspergillus awamori

A feruloylesterase was purified from the extracellular broth of Aspergillus awamori grown on wheat bran culture. The purified enzyme gave a single band on SDS-polyacrylamide gel electrophoresis and isoelectric focusing, with an apparent M _r of 35,000 and a pI of 3.8, respectively. The substrate specificity of the purified enzyme differed obviously from that of acetylesterase of A. awamori. The enzyme bound to microcrystalline cellulose.     

Chalcone isomerase in flowers of mutants of Petunia hybrida

The effect of the gene Po on the activity of chalcone isomerase was investigated in Petunia hybrida. Furthermore, isomerase activities isolated from petals were compared with those extracted from anthers. No effect of Po on the pH-dependence of the isomerase and its kinetic properties was observed. With respect to these criteria, the enzyme extracted from anthers behaved in an identical manner to that extracted from petals. Upon chromatofocussing of a petal extract two peaks of activity were present with slightly different isoelectric points (pI 4.8 and pI 5.1). The occurrence of these activities was dependent on the method of enzyme extraction. An isolation procedure using polyvinylpyrrolidone besides Dowex to remove phenolic compounds, followed by (NH₄)₂SO₄ precipitation of the protein, resulted in only one peak of isomerase at a pI of 5.3. This observation was independent of Po and did not occur in anthers. In anthers one peak of enzyme activity with a pI of 4.5 was present. The moleuclar weight of the isomerase from flowers (62,500 dalton in Po-dominant and Po-recessive plants) differed from the molecular weight of the anther enzyme (44,000 dalton). In Po-recessive mutants the isomerase activity in mature flowers was low compared with Po-dominant mutants, indicating that the mutation in Po either reflects a temporal mutation in the expression of chalcone isomerase or an increased degradation of the enzyme.     

Purification and characterization of a lysosomal aspartic protease with cathepsin D activity from the mosquito

A lysosomal aspartic protease with cathepsin D activity, from the mosquito, Aedes aegypti, was purified and characterized. Its isolation involved ammonium sulfate (30–50%) and acid (pH 2.5) precipitations of protein extracts from whole previtellogenic mosquitoes followed by cation exchange chromatography. Purity of the enzyme was monitored by SDS-PAGE and silver staining of the gels. The native molecular weight of the purified enzyme as determined by polyacrylamide gel electrophoresis under nondenaturing conditions was 80,000. SDS-PAGE resolved the enzyme into a single polypeptide with M_r = 40,000 suggesting that it exists as a homodimer in its non-denatured state. The pI of the purified enzyme was 5.4 as determined by isoelectric focusing gel electrophoresis. The purified enzyme exhibits properties characteristic of cathepsin D. It utilizes hemoglobin as a substrate and its activity is completely inhibited by pepstatin-A and 6M urea but not by 10 mM KCN. Optimal activity of the purified mosquito aspartic protease was obtained at pH 3.0 and 45°C. With hemoglobin as a substrate the enzyme had an apparent K_m of 4.2 μ M. Polyclonal antibodies to the purified enzyme were raised in rabbits. The specificity of the antibodies to the enzyme was verified by immunoblot analysis of crude mosquito extracts and the enzyme separated by both non-denaturing and SDS-PAGE. Density gradient centrifugation of organelles followed by enzymatic and immunoblot analyses demonstrated the lysosomal nature of the purified enzyme. The N-terminal amino acid sequence of the purified mosquito lysosomal protease (19 amino acids) has 74% identity with N-terminal amino acid sequence of porcine and human cathepsins D.     

Genetic control of triosephosphate isomerase isoenzymes in wheat and rye

Summary The patterns of chloroplastic and cytosolic isoenzymes of triosephosphate isomerase were analysed by immunoblotting in leaves of rye, wheat, and some species of Aegilops or Agropyrum. While rye contained solely one chloroplastic and one cytosolic isoenzyme, wheat had a much more complex pattern which can be explained by the presence of three genomes in 6 x wheats (AABBDD) with distinct triosephosphate isomerase genes that provided different subunit species for the dimeric isoenzyme molecules. The 6 × wheats contained five, the 4 × wheats three, and the 2 × wheats only one chloroplastic isoenzyme band. The isoenzyme patterns were in accordance with a potential origin of one of the three chloroplastic triosephosphate isomerase genes of 6 × wheats from an Aegilops ancestor. The descent of the other two genes was, however, not in accordance with common contentions on the general evolution of cultural wheats. In the reciprocal intergeneric hybrids Secalotricum and Triticale both the chloroplastic and the cytosolic isoenzyme patterns of rye and wheat were biparentally inherited, indicating that both isoenzymes were controlled by nuclear genes. When monitored by immunoblotting the chloroplastic triosephosphate isomerase isoenzymes may provide useful genetic markers.     

Isolation of 3-methylcrotonyl-coenzyme A carboxylase from bovine kidney

3-Methylcrotonyl-CoA carboxylase (MCase), an enzyme of the leucine oxidation pathway, was highly purified from bovine kidney. The native enzyme has an approximate molecular weight of 835,000 as measured from exclusion limits by polyacrylamide gel electrophoresis at pH 7.3. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate demonstrated two subunits, identified as a biotin-free subunit (A subunit; M_r = 61,000) and a biotin-containing subunit (B subunit; M_r = 73,500). The biotin content of the enzyme was 1 mol/ 157,000 g protein, consistent with an AB protomeric structure for the enzyme. The isoelectric point of the enzyme was found to be 5.4. Maximal MCase activity was found at pH 8 and 38 °C in the presence of Mg²⁺ and an activating monovalent cation such as K⁺. Kinetic constants (K_m values) for the enzyme substrates were: 3-methylcrotonyl-CoA, 75 μm; ATP, 82 μm; HCO₃^?, 1.8 mm. Certain acyl-CoA derivatives, including crotonyl-CoA, (2Z)-3-ethylcrotonyl-CoA, and acetoacetyl-CoA, were also substrates for the enzyme. Some data on inhibition of the enzyme by acyl-CoA derivatives, and sulfhydryl- and arginyl-reagents, are presented.     

Purification of a UTP: d-Glucose-1-phosphate uridylyl-transferase from Golgi apparatus of cat liver by affinity chromatography on UTP-agarose

UDP-glucose pyrophosphorylase from Golgi apparatus solubilized by detergent has been purified 100-fold from microsomes by affinity chromatography on UTP-agarose. The purified enzyme has apparent M_r 270,000 and isoelectric pH 3.9 against 360,000 and 4.2 for soluble enzyme. According to these characteristics, UDP-glucose pyrophosphorylase from Golgi apparatus is different from cytosolic enzyme.     

A hysteretic invertase from Equisetum giganteum L

The invertase from Equisetum giganteum L., a lower vascular sporophytic plant, was purified to chromatographic and electrophoretic homogeneity. The enzyme appears to be a pentamer, M_r 91,000, formed by identical subunits (M_r 18,000). An isoelectric point of 4.5 was found for the protein. The optimum pH was about 4.5 and the preferred substrate is sucrose, K_m=10.4 mM. Glucose and fructose are classical non-competitive (K_i=120 mM) and competitive (K_i=96 mM) inhibitors, respectively. Proteins which behave as activators of the enzyme suppress the inhibitory action of the reaction products. The activation energy of the hydrolytic reaction is 18,000 cal/mol. The outstanding property of the invertase is a hysteretic behavior when the pH changes from 3.05 to 4.5. The lag time is independent of the enzyme concentration suggesting that slow conformational changes are induced by pH variation and not by different polymerization states.     

Chloroplast and Cytoplasmic Enzymes: IV. Pea Leaf Fructose 1,6-Diphosphate Aldolases

Several peaks of aldolase activity are found in the isoelectric focusing pattern of pea (Pisum sativum) leaf chloroplast extracts. One peak, separated by 0.5 pH unit from the major chloroplast aldolase peak, is found when cytoplasmic extracts are focused. The chloroplast and cytoplasmic enzymes have a pH 7.4 optimum with fructose 1,6-diphosphate. The Michaelis constant for fructose-1,6-diphosphate is 19 μM for the chloroplast, 21 μM for the cytoplasmic enzyme, and for sedoheptulose 1,7-diphosphate, 8 μM for the chloroplast enzyme, 18 μM for the cytoplasmic enzyme. Both enzymes are inhibited by d-glyceraldehyde 3-phosphate and by ribulose 1,5-diphosphate. The similarity in the catalytic properties of the isoenzymes suggests that both enzymes have an amphibolic role in carbon metabolism in the green leaf.     

Soluble cytochromes ofRhodopseudomonas marina

Three acidicc-type cytochromes (c-552,c-550 andc′) were purified from the soluble fraction ofRhodopseudomonas marina. Cytochromec′ is a high-spin cytochrome capable of binding carbon monoxide reversibly to its reduced form. It occurs as a dimer with anM_r of 36700 (estimated by gel filtration) while the monomer has anM_r of 17800 (determined by SDS-acrylamide gel electrophoresis). Cytochromec′ has a midpoint redox potential of +73 mV and an isoelectric point at pH 4.3. Cytochromesc-550 andc-552 are typical low-spin cytochromes. Cytochromec-550 has anM_r of 12500, an isoelectric point at pH 4.5 and a negative redox potential of −163 mV. The molecular properties of cytochromec-552 are as follows:M_r, 18000; isoelectric point, pH 5.4; redox potential, +283 mV.     

Stress Responses in Alfalfa (Medicago sativa L.): II. Purification, Characterization, and Induction of Phenylalanine Ammonia-Lyase Isoforms from Elicitor-Treated Cell Suspension Cultures

l-Phenylalanine ammonia-lyase has been purified from elicitor-treated alfalfa (Medicago sativa L.) cell suspension cultures using two protocols based on different sequences of chromatofocusing and hydrophobic interaction chromatography. Three distinct forms of the intact enzyme were separated on the basis of affinity for Octyl-Sepharose, with isoelectric points in the range pH 5.1 to 5.4. The native enzyme was a tetramer of M_r 311,000; the intact subunit M_r was about 79,000, although polypeptides of M_r 71,000, 67,000 and 56,000, probably arising from degradation of the intact subunit, were observed in all preparations. Two-dimensional gel analysis revealed the presence of several subunit isoforms of differing isoelectric points. The purified isoforms of the native enzyme had different K_m values for l-phenylalanine in the range 40 to 110 micromolar, although mixtures of the forms in crude preparations exhibited apparent negative rate cooperativity. The enzyme activity was induced approximately 16-fold within 6 hours of exposure of alfalfa cells to a fungal elicitor or yeast extract. Analysis by hydrophobic interaction chromatography revealed different proportions of the different active enzyme isoforms, depending upon either time after elicitation or the elicitor used. The elicitor-induced increase in enzyme activity was associated with increased translatable phenylalanine ammonia-lyase mRNA activity in the polysomal fraction.     

Purification and characterization of bifunctional dehydroquinase-shikimate: NADP oxidoreductase from pea seedlings

The bifunctional enzyme dehydroquinase (DHQase, EC 4.2.1.10)-shikimate: NADP oxidoreductase (SHORase, EC 1.1.1.25) has been purified 6500-fold to homogeneity from Pisum sativum shoot tissue. A rapid purification procedure using high performance liquid chromatography was used to isolate the enzyme from chloroplast preparations. The purified enzyme is monomeric with M_r 59 000. Chromatofocusing separates three isoenzymes, two of which are chloroplastic. DHQase and SHORase (forward reaction) show pH optima at pH 7 and apparent K_m values of 2.7 x 10⁻⁵ M (dehydroquinate), 2.1 x 10⁻⁴ M (dehydroshikimate) and 1.5 x 10⁻⁵ M (NADPH). Chloride is a competitive inhibitor of DHQase. The SHORase reaction has an ordered (sequential) kinetic mechanism and is unaffected by the presence of DHQ.     

Purification and properties of pyruvate kinase type M2 from rat lung

(1) Pyruvate kinase type M₂ from rat lung has been purified 840-fold with an overall yield of 20%. The enzyme gave a single band upon SDS-electrophoresis and isoelectrofocusing and had a specific activity of 1340 U/mg protein. The homotetramer of M_r = 224 000 and an isoelectric point of pH 5.8 had an amino acid composition closely resembling that of other pyruvate kinase isoenzymes type M₂, excepts that of the chicken liver. The enzyme was crystallized. (2) The enzyme has its pH optimum at pH 6.5. The K_0.5 value for phosphoenolpyruvate is 0.26 mM (n_H = 1.81) which decreases in the presence of 0.2 mM fructose 1,6-bisphosphate to 0.056 mM (n_H = 1.06). 1 μM fructose 1,6-bisphosphate activates the enzyme at 0.1 mM phosphoenolpyruvate half-maximally. The K_m value for ADP at 1 mM phosphoenolpyruvate is 0.4 mM. The K_m value for other nucleoside diphosphates increases in the order ADP<GDP<IDP<UDP. (3) No evidence for an interconversion of pyruvate kinase type M₂ from rat or chicken lung was found. The enzyme was neither a substrate for the cAMP-dependent protein kinase from rabbit muscle nor for the cAMP-independent protein kinase from chicken liver. Since pyruvate kinase type M₂ from chicken liver is inactivated by phosphorylation catalyzed by a cAMP-independent protein kinase (Eigenbrodt, E., Abdel-Fattah Mostafa, M. and Schoner, W. (1977) Hoppe-Seyler's Z. Physiol. Chem. 358, 1047–1055) we suggest that the interconvertible form of pyruvate kinase type M₂ may represent a separate form of the pyruvate kinase type M₂ family.     

Oat seed globulin: subunit characterization and demonstration of its synthesis as a precursor

The predominant storage protein of oat (Avena sativa L.) seeds is a saline-soluble globulin with a mol wt of 320,000 which is composed of six large (M_r = 35,000 to 40,000) and six small (M_r = 20,000 to 25,000) subunits. Experiments were conducted to further describe the subunit polypeptides and to identify the initial translation products of globulin mRNAs. Approximately 20 large subunits and 10 small subunits were resolved by two-dimensional gel analysis. The large and small subunits had acidic and basic isoelectric points, respectively. Disulfide-linked complexes of one large and one small subunit were isolated by extraction in buffer lacking a reducing agent. The NH₂-terminal sequence of the small subunits was homologous to a small subunit of soybean glycinin. Immunoprecipitation of in vitro translation products of poly(A)⁺ RNA with anti-oat globulin sera yielded M_r = 60,000 to 68,000 polypeptides. In vivo labeling of spikelets with radioactive amino acids resulted in high amounts of incorporation into polypeptides with M_r = 65,000 to 68,000 which were immunoprecipitated with anti-globulin sera. These two results suggest oat globulin is synthesized as a higher mol wt precursor which is subsequently processed to yield the large and small subunit polypeptides.     

The separation and characterization of two forms ofTorpedo electric organ calelectrin

Two methods for extracting calelectrin, a Ca²⁺-regulated membrane-binding protein from the electric organ ofTorpedo marmorata, have been compared and the more promising one was modified to increase the yield to 7–8 mg · kg⁻¹ wet weight of tissue, that is 4–5-times greater than the original method. The calelectrin so obtained could be resolved into a minor component (designated L-calelectrin) eluted from an anion-exchange column at relatively low ionic strength (100 mM NaCl) and a major component (H-calelectrin) eluted at higher ionic strength (300 mM NaCl). The two forms were also separated by chromatography on a hydrophobic resin. Electrophoresis on cellulose acetate indicated that L-calelectrin had a lower mean isoelectric point that the H-form and polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulphate showed that under reducing conditions (presence of 5% β-mercaptoethanol) both forms migrated as single species, the L-form having a lower apparent relative molecular mass (M_r 32 000) than the H-form (34 000). Under non-reducing conditions, there was no change in the migration of L-calelectrin but the H-form was resolved into two components of M_r 34 000 and 32 000. The addition of 2 mM Ca²⁺ had no effect on the migration of either form. Both forms were equally recognized by an anti-calelectrin antiserum and were microheterogeneous with respect to their isoelectric points (pH 4.3–5.5) in two-dimensional gel electrophoresis. Physical measurements were carried out on the major H-form. The Stokes radius was estimated to be 3 nm, corresponding to an apparent M_r of 44 000. It was unaffected by changes in ionic strength, pH or Ca²⁺ concentration. Analytical ultracentrifugation gave a sedimentation constant of 2.9 S and an apparent M_r of 36 000. Measurements of circular dichroism indicated that 78% of the molecule was in the α-helix configuration and 22% in random coil. Ca²⁺ had no significant effect on the conformation.     

Isolation and Characterization of a UDPGlucose: Flavonol O-Glucosyltransferase from Illuminated Red Cabbage (Brassica oleracea cv Red Danish) Seedlings

A UDPGlc:flavonol O³-glucosyltransferase (EC 2.4.1.91) that catalyzes the formation of quercetin and kaempferol O³-glucosides has been purified about 1450-fold from illuminated red cabbage (Brassica oleracea cv Red Danish) seedlings with a 3.3% yield. Purification of the enzyme was achieved by (NH₄)₂SO₄-precipitation, gel-filtration, ion-exchange chromatography on DEAE-Bio-Gel and Q-Sepharose, chromatofocusing, and electrophoresis in nondenaturing polyacrylamide (10%) gels. The enzyme preparation had a pH optimum between 5.8 and 6.2, isoelectric point in the pH range 4.25 to 4.55, a M_r of 59,000, and it was composed of two similar subunits of M_r 29,500. The glucosyltransferase reached half substrate saturation at 180 micromolar (UDPGlc) and 7 micromolar (quercetin) concentrations. Kaempferol, which was glucosylated at a relative rate of 87%, had a lesser affinity for the enzyme (K_m~12 micromolar). Flavanones, flavanols, flavones, dihydroflavonols, and anthocyanidins were not readily utilized as substrates, suggesting that the enzyme is specific for flavonol glucoside biosynthesis.     

Effect of estrogen-treated porcine ampulla oviductal epithelial cells on early embryonic development in vitro and characterization of their protein synthetic activity

Recent studies by Buhi et al. have demonstrated that estrogen (E₂) is responsible for the induction of de novo synthesis and secretion of certain oviductal secretory proteins (OSP) and inhibition of other OSP in porcine oviductal explant cultures. The present work was undertaken to evaluate the effect of E₂-treated oviductal epithelial cell coculture on the development of early porcine embryos derived from in vitro matured and fertilized oocytes. In vitro synthesis of secretory proteins by E₂-treated oviductal cells used for coculture was also investigated by one-dimensional (1D) and two-dimensional (2D) sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis (PAGE). The results showed that the cleavage rate was significantly enhanced by coculturing fertilized eggs with E₂-treated oviductal epithelial cells. The in vitro protein synthetic pattern of oviductal secretory proteins was influenced by E₂ treatment. These variations included the disappearance of one protein (82 000 M_r) and the appearance of another (33 000 M_r) in the E₂-treated group as assessed by 1D-SDS-PAGE. Additional proteins of M_r 97 000 and an M_r 36 000–45 000 complex were increased in abundance by the E₂ treatment. Analyses by 2D-SDS-PAGE revealed three major E₂-dependent proteins, of M_r 45 000 (pI 5.5), 43 000 (pI 5.5) and a 36 000–45 000 M_r (pI 4.8) protein complex, whereas polypeptides of M_r 97 000 (pI 5.1), 36 000 (pI 8.0) and 25 000 (pI 6.8) were inhibited by E₂ treatment. The results demonstrated that porcine epithelial cell protein synthetic patterns are influenced by E₂ treatment and that estradiol treatment of oviductal cells may increase the rate of zygote cleavage during early development in vitro in pigs.     

Identification of Several Pathogenesis-Related Proteins in Tomato Leaves Inoculated with Cladosporium fulvum (syn. Fulvia fulva) as 1,3-beta-Glucanases and Chitinases

Inoculation of tomato (Lycopersicon esculentum) leaves with Cladosporium fulvum (Cooke) (syn. Fulvia fulva [Cooke] Cif) results in a marked accumulation of several pathogenesis-related (PR) proteins in the apoplast. Two predominant PR proteins were purified from apoplastic fluid by ion exchange chromatography followed by chromatofocusing. One protein (molecular mass [M_r] 35 kilodaltons [kD], isoelectric point [pI] ~6.4) showed 1,3-β-glucanase activity, while the other one (M_r26 kD, pI ~6.1) showed chitinase activity. Identification of the products that were released upon incubation of the purified enzymes with laminarin or regenerated chitin revealed that both enzymes showed endo-activity. Using antisera raised against these purified enzymes from tomato and against chitinases and 1,3-β-glucanases isolated from other plant species, one additional 1,3-β-glucanase (M_r33 kD) and three additional chitinases (M_r 27, 30, and 32 kD) could be detected in apoplastic fluids or homogenates of tomato leaves inoculated with C. fulvum. Upon inoculation with C. fulvum, chitinase and 1,3-β-glucanase activity in apoplastic fluids increased more rapidly in incompatible interactions than in compatible ones. The role of these hydrolytic enzymes, potentially capable of degrading hyphal walls of C. fulvum, is discussed in relation to active plant defense.     

Sulphydryl groups of (Na+ +K+)-ATPase from rectal glands of Squalus acanthias: Titrations and classification

1. (Na⁺ +K⁺)-ATPase from rectal gland of Squlus acanthias contains 34 SH groups per mol (M_r 265000). 15 are located on the α subunit (M_r 106 000) and two on the β subunit (M_r 40 000). The β subunit also contains one disulphide bridge. 2. The reaction of (Na⁺ +K⁺)-ATPase with N-ethylmaleimide shows the existence of at least three classes of SH groups. Class I contains two SH groups on each α subunit and one on each β subunit. Reaction of these groups with N-methylmaleimide in the presence of 40% glycerol or sucrose does not alter the enzyme activity. Class II contains four SH groups on each α subunit, and the reaction of these groups with 0.1 mM N-ethylmaleimide in the presence of 150 mM K⁺ leads to an enzyme species with about 16% activity. The remaining enzyme activity can be completely abolished by reaction with 5–10 nM N-ethylmaleimide, indicating a third class of SH groups (Class III). This pattern of inactivation is different from that of the kidney enzyme, where only one class of SH groups essential to activity is observed. 3. It is also shown that N-ethylmaleimide and DTNB inactivate by reacting with the same Class II SH groups. 4. Spin-labelling of the (Na⁺ +K⁺)-ATPase with a maleimide derivative shows that Class II groups are mostly buried in the membrane, whereas Class I groups are more exposed. It is also shown that spin label bound to the Class I groups can monitor the difference between the Na⁺- and K⁺-forms of the enzyme.